The DART Energy Research Programme Recognising that the programme should be as much about people and changing cultures while delivering service the approach was developed initially through the four different strands of design, awareness, research and technology. The earlier projects researched individual opportunities and tested them locally. These successes were further developed, trialled and monitored in various all encompassing research projects such as the Gaelscoil an Eiscir Riada in Tullamore, the Generic Repeat Designs and the Rural Schools the next generation designs before being incorporated into standard school design guidance documents. The overall DART Programme won a Taoiseach Public Service Excellence Award in 2008. The Biomass Research and Demonstration Project was a finalist in the Sustainable Energy Ireland Awards 2008 Renewable Energy Project Category. The Tullamore Gaelscoil project has received International and National awards including Environmental Initiative of the Year Award CIBSE London 2004, Excellence in Design or Specification, Sustainable Energy Ireland Awards 2004 and Inside Government Merit Award 2004 for Best Project within an Organisation for Innovation through Technology. Rather than develop a unique focus on energy design the Planning & Building Unit has taken a more holistic approach and has developed technical guidance on energy efficiency in school designs as an integral part of a suite of technical guidance documents. These technical guidance documents set the benchmark for sustainable design in school buildings with a clear focus on energy efficiency and they are based on solid energy research projects. The Departments policy is supported by a strong research programme with research projects at various stages. They are available at http://www.education.ie/home/home.jsp?pcategory=17216&ecategory=54380&language=en Schools in Ireland by their nature present particular limitations from an energy conservation viewpoint. In energy terms they have relatively short operational hours, do not have building management specialists on site and energy conservation is not a core function of a school. This means that all the heating, lighting, power, water, security and communication systems (known collectively as the building services) used in schools must be robust, reliable and relatively simple and automated. These have all been considered within the energy approach and building designs, all new technologies and approaches are tested to ensure compatibility with school design and operational requirements. Successful and repeatable results are then incorporated into all new school designs and policy. A hybrid approach is taken with respect to sustainable design in schools based on maximising natural resources and energy efficient technologies. Schools are positioned to maximise gain from the sun during the day for passive solar heating and natural daylight. Passive solar design saves 20 % of early morning heating period and adequate natural daylight when combined with automated lighting systems in the classrooms can eliminate the need for electrical light for up to 80% of the schools teaching hours. Energy efficient boilers and individual digital room temperature controls combined with a strong emphasis on air tight testing (currently twice as good as Irish Building Standards) and insulation levels minimise heat requirements. Water usage is minimised through automatic shut off taps and
dual flush toilets, while local water blending valves are provided to prevent scalding and rain water recovery is provided. The Department have been using test schools to evaluate the suitability of renewable energy options for schools for the past seven years. Over 40% of the research programme features renewable aspects. These renewables include wind generation, solar hot water heating, photovoltaic, rain water recovery, geothermal heat pumps and biomass heating systems. Results have varied with respect to the application in a school environment and research continues in this area. In the interest of sustainability the potential of renewables should be maximised in school design, it is however critical that renewable applications are properly suited to the application needs and not just applied for the sake of having a renewable tag on a building. It is also critical that we minimise the demand for energy before we invest in renewable energy applications. The programme in recent years has been focusing on existing school buildings to establish appropriate methodologies to improve the energy performance of schools that were built at a time when fuel was plentiful and relatively cheap and technology and material choices were not as advanced as today. Over a third of the research projects have a focus in this area. These include a number of sustainable energy guides for school. The Department are also involved with the Sustainable Energy Authority of Ireland (SEAI) on a sustainable energy mentoring programme with schools. Planning for sustainable neighbourhoods and not just the physical environment is also very important, the Joint Code of Practice on Provision of Schools and the Planning Process August 2008 will assist greatly with sustainable school provision and sustainable travel patterns. The Department has developed a project aimed at allowing existing schools to meet the certification requirements of the EPBD within a very short time period and without the need for a costly and time consuming assessor based system. The proposal consists of the formation of a web site that will allow schools to obtain an energy performance certificate for display within their schools. The project has been jointly funded by SEI. Other energy research projects within the Department include wind generation, solar electrical generation, enhanced insulation, web based operation and maintenance manuals, Dundalk Energy Zone Project and energy workshops for school managers, district heating systems, passive house standard schools and a new schools energy website. Sustainability awareness in school children is provided through a dedicated program run by Sustainable Energy Ireland and also through the An Taisce Green Flags Program. The latter programme also includes the Green-Schools Travel programme. The Department have also piloted a program where the school can be used to act as a life learning tool. This is operated through an interactive child friendly touch screen linked in real time to the schools building management system. The sustainable and energy efficient programme of the Department received further endorsements to its approach when a sample school built in 2006 was assessed for a Building Energy Rating (BER); the school which was designed and built in accordance with the Departments Technical Guidance Documents received a top band rating of A3.
The main objectives of the sustainable energy programme may be summarised as follows: provide quality educational facility appropriate to its users requirements demonstrate exemplar role provide a quality internal environment for the occupants of classrooms allowing the occupants to control their own internal environment through the use of natural daylight controls and heating and natural ventilation controls. All rooms are designed to have adequate natural light for 80% of the occupied period which is important as studies have shown that the use of natural light improves the ability of students to learn research and encompass reliable low energy design solutions identify and maximise new technology potential reduce energy consumption in schools reduce reduced carbon dioxide emissions in schools provide feedback to the Planning & Building Unit Technical Staff on the operation of the school and its systems explore the potential of school buildings to act as a life-learning tool that enables the building to be an active learning resource for energy conservation and sustainability for the pupils and teachers accumulate monitored data to feed into the design process for the next generation of even more sustainable schools continuously under development by the Department Planning and Building section enable school staff and children to learn about the benefits of sustainable design techniques to educate schools, designers, and the public in the use of sustainable techniques through public presentations and technical publications to allow the contractors involved in the projects to learn about sustainable construction, particularly in the use of air tightness construction and testing requirements. Pre construction, the design teams provide recommendations to the contractors about sustainable building techniques along with a number of walk and talk meetings on the building envelope as it was under construction It can be said that our programme is sustainable in more than one way!
A summary of the main achievements of the programme with respect to improvement to the quality of services delivered to the public, through a focus on people are as follows: improved quality of school buildings improved working environment for teachers improved teaching environment for teachers and pupils improved learning environment for pupils improved running costs for school board of managements improved carbon dioxide emissions beneficial to the state and the environment quick delivery through the application of an off-the-shelf design option improved awareness of the school and energy usage by pupils & teachers improved knowledge of energy use and consumption patterns in schools on line certification process for compliance with the Energy Performance Building Directive (EPBD) resulting in schools being able to complete their own assessment on line rather than having to employ consultants to do it. good cross border co operation improved awareness of consultants and contractors in low energy design Energy used in Primary Schools kwhr/m2/year 250 200 150 100 50 Schools built in 1980's S chools built in 1990's Schools, Best Practice 2006 C urrent school designs based on TGD's 0
A summary of the innovative use of process, tools and technology in the programme are as follows: Simulation computer modelling to evaluate internal air quality, natural day lighting, natural ventilation Interactive operation and maintenance manuals Early trialling and demonstration of newest technology and incorporation into general school design Air tight testing to reduce air leakage to / from school interior Generic repeat designs for quick and cost effective delivery Child friendly touch screen educational applications Renewable Energy technologies that are suitable for schools and environmentally with lower operational costs Web based monitoring and control systems Web based central collection of energy consumption in all schools through the Energy Performance Building Directive (EPBD) programme. Life learning tool
So how is low energy design incorporated into our schools? The incorporation of low energy design has been done on a hybrid basis by maximising natural resources and utilising technologies. Maximising natural resources involves focusing on areas such as passive solar design, day lighting, natural ventilation, and reducing air infiltration. Passive solar design in school building terms means positioning the teaching spaces facing east, this can produce up to 25% savings on early morning heat up which is a significant portion of the schools total heating requirements. Good natural daylight in a learning environment is highly desirable. The window design, configuration and locations are designed to maximize available daylight in all classrooms so that for up to 80 % of the occupied period the classrooms will be able to operate without artificial lighting. Computerized modeling is used at the design stage to verify the design targets can be achieved in the school when built. Ventilation in schools is by natural means provided without draughts through a mix of high and low level open able windows; again this is verify at the design stage through the use of detailed computer simulations. Air Infiltration is a term used to describe unwanted and uncontrollable air leakage to and from a building. It occurs through unsealed gaps in construction and results in a significant amount of heat wastage. In effect a building that has a high infiltration rate will lose more heat during the day and especially at night (due to lower night time temperatures) and thus requires more time and energy to heat up in the mornings. All new schools and large extensions are air tight tested to a standard, twice as good as the current building regulations. Technologies. With regard to utilising technologies a number of areas have been focused on including heating, lighting and water efficiency and rainwater recovery. Boiler selection to maximise efficiency is encouraged in the technical guidance documents, in addition to this more energy efficient heating controls are promoted. Each teaching space has its own individual digital temperature sensor that allows the teacher to adjust room temperature control within a temperature band. To maximise the potential of natural daylight, lighting specifications for schools are based on the most energy efficient lighting available with automatic dimming / off controls. Research by the Department has shown that young children only used the cold taps in school for ablution as they were afraid of the hot tap, associating it with the hot water taps in their homes where there would have been no anti scald provisions. Supplying a blended reduced temperature to the hot tap made no difference in their behaviour. In answer to this the Department has adopted a single tap solution to all wash hand basins where the hot and cold water are mixed at the tap intake with anti scald protection, thus all water outlets for ablution are single taps giving a blended safe water supply. Water usage is also minimised through automatic shut off taps and dual flush toilets.